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The Effect of Laser Bio-Modulation on Dysplastic Lesions, an Animal Study Publisher Pubmed



Pourshahidi S1 ; Ghasem Zadeh Hoseini E2 ; Shirazian S1 ; Ebrahimi H3 ; Chiniforush N4 ; Alaeddini M5 ; Etemadmoghadam S5 ; Amaral Mendes R1, 6, 7
Authors

Source: Photochemistry and Photobiology Published:2021


Abstract

Potentially malignant disorders are one of the clinical challenges. Dysplasia in these lesions can be a predictor of more potential for malignant changes. Photo-bio-modulation in benign lesions has advantages, but there is doubt on its safety in potentially malignant lesions. This study aims to assess if low-level laser can promote dysplastic changes while the method can play an important role in management of dysplastic lesions. Dysplasia was induced on anterior wall of the buccal pouch of 80 young Syrian male hamsters. Then, hamsters were divided to four groups to receive 4 and 12 sessions irradiation of 660 and 810 nanometers low-level lasers. For histopathologic study of the tissue, we used light microscopes. Using SPSS, data were analyzed via Wilcoxon signed rank test and Mann–Whitney U-test. In all of our four groups, the severity of dysplasia had no statistical difference in study sides comparing with their own controls. Wavelength and numbers of laser irradiation sessions had no statistically meaningful effect on the severity of dysplasia either. Low-level lasers appear to show no relevant or significant effect over the aggravation of the dysplasia's severity. Neither the wavelength nor the number of sessions appear to have any impact in the results. © 2021 American Society for Photobiology
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